自动滑翔伞价格如何计算

The top of each line is attached to small

fabric loops sewn into the structure of the wing, which are generally arranged

in rows running span-wise (i.e., side to side). The row of lines nearest the

front are known as the A lines, the next row back the B lines, and so on.[14] A

typical wing will have A, B, C and D lines, but recently, there has been a

tendency to reduce the rows of lines to three, or even two (and experimentally

to one), to reduce drag.

Paraglider lines are usually made from

Dyneema/Spectra or Kevlar/Aramid.[14] Although they look rather slender, these

materials are immensely strong. For example, a single 0.66 mm-diameter line

(about the thinnest used) can have a breaking strength of 56 kg.[15]

Paraglider wings typically have an area of

20–35 square metres (220–380 sq ft) with a span of 8–12 metres (26–39 ft) and

weigh 3–7 kilograms (6.6–15.4 lb). Combined weight of wing, harness, reserve,

instruments, helmet, etc. is around 12–22 kilograms (26–49 lb).

自动滑翔伞价格如何计算

Harness

A pilot with harness (light blue),

performing a reverse launch

The pilot is loosely and comfortably

buckled into a harness, which offers support in both the standing and sitting

positions. Most harnesses have foam or airbag protectors underneath the seat

and behind the back to reduce the impact on failed launches or landings. Modern

harnesses are designed to be as comfortable as a lounge chair in the sitting or

reclining position. Many harnesses even have an adjustable "lumbar

support". A reserve parachute is also typically connected to a paragliding

harness.

Harnesses also vary according to the need

of the pilot, and thereby come in a range of designs, mostly: Training harness

for beginners, Pax harness for tandem passengers that often also doubles as a

training harness, XC Harness for long distance cross country flights, All round

harness for basic to intermediate pilots, Pod harness, which is for

intermediate to pro pilots that focus on XC. Acro harnesses are special designs

for acrobatic pilots, Kids tandem harnesses are also now available with special

child-proof locks.

连云港**滑翔伞要多少钱

Forward launch

In low winds, the wing is inflated with a

forward launch, where the pilot runs forward with the wing behind so that the

air pressure generated by the forward movement inflates the wing.

It is often easier, because the pilot only

has to run forward, but the pilot cannot see his wing until it is above him,

where he has to check it in a very short time for correct inflation and

untangled lines before the launch.

Reverse launch

File:Paraglider launch Mam T

Paraglider reverse launch, Mam Tor, England

In higher winds, a reverse launch is used,

with the pilot facing the wing to bring it up into a flying position, then

turning around under the wing and running to complete the launch.

Radio

Radio communications are used in training,

to communicate with other pilots, and to report where and when they intend to

land. These radios normally operate on a range of frequencies in different

countries—some authorised,[18][19] some illegal but tolerated locally. Some

local authorities (e.g., flight clubs) offer periodic automated weather updates

on these frequencies. In rare cases, pilots use radios to talk to airport

control towers or air traffic controllers. Many pilots carry a cell phone so

they can call for pickup should they land away from their intended point of

destination.

GPS

GPS (global positioning system) is a

necessary accessory when flying competitions, where it has to be demonstrated

that way-points have been correctly passed. The recorded GPS track of a flight

can be used to analyze flying technique or can be shared with other pilots. GPS

is also used to determine drift due to the prevailing wind when flying at

altitude, providing position information to allow restricted airspace to be

avoided and identifying one's location for retrieval teams after landing out in

unfamiliar territory. 

着陆涉及更多的计划，因为可能有多个飞行员必须同时着陆。因此，已经建立了特定的流量模式。飞行员排在飞机场上方并降落在降落区一侧，该位置取决于风向，飞行员可能会因坐飞机而失去身高（如有必要）。从该位置开始，它们以矩形模式沿着飞行路径的腿到达着陆区：顺风腿进场。这允许在多个飞行员之间进行同步，并减少发生碰撞的风险，因为飞行员可以预测他周围的其他飞行员接下来将要做什么。

技术技巧

在进近下降过程中，在接触地面大约四米之前，可以施加一些瞬时制动，然后使用向前的摆动动量来获得速度，以更有效地展开并以**小的垂直速度接近地面。

在小风中，一些小跑很常见。在中等到中等的逆风中，着陆时可能没有前进速度，甚至在强风中甚至可能相对于地面后退。用风着陆会迫使飞行员向后退，这特别危险，因为它可能会翻滚并被拖拽。当机翼垂直于飞行员上方时，有可能降低风险放气。这涉及到每只手在槌/竖板交界处抓住前缘线（As），并通过深深的膝盖弯曲动作来施加飞行员的全部重量。在几乎每种情况下，机翼的前缘都会向前飞一点，然后“折”。然后，它可能会坍塌并下降到飞行员的上风处。在地面上，它将被飞行员的腿约束。

连云港**滑翔伞要多少钱

自动滑翔伞价格如何计算

热飞行

托里·派恩斯滑翔伞在空中滑翔伞

当太阳温暖地面时，它将使某些功能比其他功能（例如岩石表面或大型建筑物）加热得更多，而这些功能会引发通过空气上升的热量。有时，这些可能只是空气的简单上升；通常，它们在风中向侧面吹，会从源头脱落，随后形成新的热量。

一旦飞行员找到了热量，他便开始绕圈飞行，试图将圆圈定位在热量**强的部分（“**”）上，其中空气的上升**快。大多数飞行员使用可变高度计（“ vario”），通过嘟嘟声和/或视觉显示来指示爬升率，以帮助将热量插入磁芯中。

通常情况下，周围的热源周围有很强的水槽，当飞行员试图进入强热源时，也存在强烈的湍流，导致机翼塌陷。良好的热力飞行是一项需要花费时间学习的技能，但是好的飞行员通常可以将热力一直贯穿到整个云层。

越野飞行

一旦掌握了使用热量来获得高度的技巧，飞行员就可以从一个热量滑到另一个热量来穿越国家。在热量中获得高度后，飞行员会下滑到下一个可用热量。

潜在的热量可以通过通常会产生热量的陆地特征或积云来识别，这些积云标志着上升的一列温暖，潮湿的空气在到达**并凝结成云时的顶部。

越野飞行员还需要熟悉航空法律，飞行法规，指示空域受限的航空地图等。

自动滑翔伞价格如何计算

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